# Copyright (c) 2015 Ultimaker B.V.
# Uranium is released under the terms of the AGPLv3 or higher.

import inspect

from PyQt5.QtCore import pyqtProperty, pyqtSignal, QObject, QUrl, QCoreApplication, pyqtSlot
from PyQt5.QtQml import QJSValue
# from UM.FlameProfiler import pyqtSlot

from UM.i18n import i18nCatalog

class i18nCatalogProxy(QObject): # [CodeStyle: Ultimaker code style requires classes to start with a upper case. But i18n is lower case by convention.]
    def __init__(self, parent = None):
        super().__init__()

        self._name = None
        self._catalog = None

        # Slightly hacky way of getting at the QML engine defined by QtApplication.
        engine = QCoreApplication.instance()._engine

        self._i18n_function = self._wrapFunction(engine, self, self._call_i18n)
        self._i18nc_function = self._wrapFunction(engine, self, self._call_i18nc)
        self._i18np_function = self._wrapFunction(engine, self, self._call_i18np)
        self._i18ncp_function = self._wrapFunction(engine, self, self._call_i18ncp)

    def setName(self, name):
        if name != self._name:
            self._catalog = i18nCatalog(name)
            self.nameChanged.emit()

    nameChanged = pyqtSignal()
    
    @pyqtProperty(str, fset = setName, notify = nameChanged)
    def name(self):
        return self._name

    @pyqtProperty(QJSValue, notify = nameChanged)
    def i18n(self):
        return self._i18n_function

    @pyqtProperty(QJSValue, notify = nameChanged)
    def i18nc(self):
        return self._i18nc_function

    @pyqtProperty(QJSValue, notify = nameChanged)
    def i18np(self):
        return self._i18np_function

    @pyqtProperty(QJSValue, notify = nameChanged)
    def i18ncp(self):
        return self._i18ncp_function

    @pyqtSlot(str, result = str)
    def _call_i18n(self, message):
        return self._catalog.i18n(message)

    @pyqtSlot(str, str, result = str)
    def _call_i18nc(self, context, message):
        return self._catalog.i18nc(context, message)

    @pyqtSlot(str, str, int, result = str)
    def _call_i18np(self, single, multiple, counter):
        return self._catalog.i18np(single, multiple, counter)

    @pyqtSlot(str, str, str, int, result = str)
    def _call_i18ncp(self, context, single, multiple, counter):
        return self._catalog.i18ncp(context, single, multiple, counter)

    ##  Wrap a function in a bit of a javascript to re-trigger a method call on signal emit.
    #
    #   This slightly magical method wraps a Python method exposed to QML in a JavaScript
    #   closure with the same signature as the Python method. This allows the closure to be
    #   exposed as a QML property instead of a QML slot. Using a property for this allows us
    #   to add a notify signal to re-trigger the method execution. Due to the way notify
    #   signals are handled by QML, re-triggering the method only needs a signal emit.
    #
    #   \param engine \type{QQmlEngine} The QML engine to use to evaluate JavaScript.
    #   \param this_object \type{QObject} The object to call the function on.
    #   \param function \type{Function} The function to call. Should be marked as pyqtSlot.
    #
    #   \return \type{QJSValue} A JavaScript closure that when called calls the wrapper Python method.
    #
    #   \note Currently, only functions taking a fixed list of positional arguments are supported.
    #
    #   \todo Move this to a more generic place so more things can use it.
    def _wrapFunction(self, engine, this_object, function):
        # JavaScript code that wraps the Python method call in a closure
        wrap_js = """function(this_object) {{
            return function({args}) {{ return this_object.{function}({args}) }}
        }}"""

        # Get the function name and argument list.
        function_name = function.__name__
        function_args = inspect.getargspec(function)[0]
        if function_args[0] == "self":
            function_args = function_args[1:] # Drop "self" from argument list

        # Replace arguments and function name with the proper values.
        wrapped_function = wrap_js.format(function = function_name, args = ", ".join(function_args))

        # Wrap the "this" object in a QML JSValue object.
        this_jsvalue = engine.newQObject(this_object)

        # Use the QML engine to evaluate the wrapped JS, then call that to retrieve the closure.
        result = engine.evaluate(wrapped_function).call([this_jsvalue])
        # Finally, return the resulting function.
        return result
